KR101689445B1 - Apparatus for coating a membrane - Google Patents

Abstract

A membrane coating apparatus is disclosed. The apparatus includes a container for containing a coating liquid, a membrane transferring section for transferring the membrane so that the membrane having a strip shape is immersed in the coating liquid in the container, and a membrane transfer section for transferring the membrane from the membrane to the membrane And an absorbent paper supply portion for supplying the absorbent paper.

Description

[0001] Apparatus for coating a membrane [0002]

Embodiments of the present invention relate to a membrane coating apparatus. More particularly, the present invention relates to an apparatus for coating a membrane with a protective agent to protect the membrane to which the diagnostic reagent is applied.

Recently, diagnostic kits for diagnosing diseases such as hepatitis, diabetes, anemia, hyperlipemia, AIDS, etc., or pregnancy by using body fluids such as urine and blood have been widely used. The diagnostic kit may include a diagnostic strip capable of diagnosing disease or pregnancy using the body fluid.

The diagnostic strip may include a base card made of plastic and a bonding pad, an absorbent pad, a membrane pad, a sample pad, etc., which are adhered to the base card through an adhesive. The membrane pad may be coated with a diagnostic reagent for determining the disease or pregnancy, and the membrane pad coated with the diagnostic reagent may be protected by a protective agent.

The diagnostic reagent may be applied using a nozzle on the membrane while continuously conveying the membrane having a strip shape using a supply roller and a collection roller. Then, the membrane to which the diagnostic reagent is applied as described above may be transferred to pass through the protective agent solution contained in the container, whereby the membrane may be coated with the protective agent solution. Also, after the membrane has passed through the container containing the protective liquid, the drying step for the wetted membrane may be performed using an oven.

However, after the membrane has passed through the vessel, an excess of the protective agent may remain on the membrane, thereby increasing the time required for drying the membrane. In addition, the extra protective solution may cause stains or the like on the membrane during the drying process, which may result in a non-uniform coating state of the membrane.

Korean Patent Publication No. 10-2012-0086985 (published on August 06, 2012) Korean Patent Publication No. 10-2012-0088342 (published on August 08, 2012)

It is an object of the present invention to provide a membrane coating apparatus capable of shortening the time required for drying a membrane and improving the coating state of the membrane.

According to embodiments of the present invention, a membrane coating apparatus includes a container for containing a coating liquid, a membrane transferring unit for transferring the membrane so that the membrane having a strip shape is immersed in the coating liquid in the vessel, And an absorbent paper supply unit for supplying the absorbent paper onto the membrane to absorb and remove the absorbent paper.

According to embodiments of the present invention, the membrane transfer section comprises a membrane supply roller on which a membrane supply roll is mounted to supply the membrane, a membrane collection roller on which a membrane collection roll is mounted to collect the membrane, And a membrane guide roller for providing a transport path of the membrane to be immersed in the coating solution.

According to embodiments of the present invention, the membrane conveyance unit may further include a second membrane guide roller disposed between the membrane collection roller and the membrane guide roller to horizontally guide the membrane.

According to embodiments of the present invention, the membrane transferring part may further include a vertical driving part for vertically moving the membrane guide roller.

According to embodiments of the present invention, the absorbent paper supply part may include an upper absorbent paper supply part for supplying the upper absorbent paper on the upper surface of the membrane and a lower absorbent paper supply part for supplying the lower absorbent paper on the lower surface of the membrane have.

According to embodiments of the present invention, the upper absorbent paper supply unit includes an upper absorbent paper supply roller on which an upper absorbent paper supply roll is mounted to supply the upper absorbent paper, Absorbent paper recovery roller.

According to embodiments of the present invention, the upper absorbent paper supply part may further include an upper absorbent guide roller that provides a transport path of the upper absorbent paper such that the upper absorbent paper contacts the upper surface of the membrane.

According to embodiments of the present invention, the membrane supply apparatus may further include a first sensor disposed between the upper absorbent sheet supply roller and the upper absorbent sheet guide roller and measuring a deflection amount of the upper absorbent sheet.

According to embodiments of the present invention, the membrane supplying apparatus may further include a second sensor disposed between the upper absorbent guide roller and the upper absorbent sheet removing roller and measuring a deflection amount of the upper absorbent sheet.

According to embodiments of the present invention, the upper absorber may be supplied at the same rate as the feed rate of the membrane.

According to embodiments of the present invention, the lower absorbent paper supply part includes a lower absorbent paper supply roller on which a lower absorbent paper supply roll is mounted to supply the lower absorbent paper, and a lower absorbent paper supply roller on which a lower absorbent paper recovery roll is mounted Absorbent paper recovery roller.

According to embodiments of the present invention, the lower absorbent paper supply unit may further include a lower absorbent paper guide roller that provides a transport path of the lower absorbent paper such that the lower absorbent paper abuts the lower surface of the membrane.

According to embodiments of the present invention, the lower absorber may be transported in a direction opposite to the transport direction of the membrane.

According to embodiments of the present invention, the container may include a first container for accommodating the coating liquid and a second container disposed below the first container. At this time, the second container may be connected to a vacuum pump so as to form a space between the first container and the second container as a vacuum chamber, and at least a part of the first container may bubble the bubble in the coating liquid into the vacuum chamber And may be made of a porous material.

According to embodiments of the present invention, the membrane coating apparatus may further include a vacuum container having a bottom opened shape and disposed so that the opened bottom is immersed in the coating liquid, Vacuum pressure can be provided to remove bubbles.

According to embodiments of the present invention, in order to form the internal space of the vacuum container into the second vacuum chamber, the vacuum container may be connected to the vacuum pump or a separate second vacuum pump.

According to embodiments of the present invention, the membrane coating apparatus may further include an oven for drying the membrane from which the excess coating liquid has been removed.

According to embodiments of the present invention, a diagnostic reagent is applied to the upper surface of the membrane, and the coating solution may be a protective agent for protecting the membrane to which the diagnostic reagent is applied.

According to embodiments of the present invention as described above, the membrane coating apparatus may include an absorbent paper supply unit for absorbing and removing extra protective agent liquid from the membrane that has passed through the protective agent liquid contained in the container. The absorbent paper supply part can supply the upper absorbent paper and the lower absorbent paper on the upper and lower surfaces of the membrane, respectively, thereby greatly reducing the time required for the subsequent membrane drying step.

In addition, since the size of the oven for drying the membrane can be reduced, the manufacturing cost and size of the membrane coating apparatus can be reduced. Particularly, since the excess protective liquid can be sufficiently removed from the membrane, surface defects such as stains can be sufficiently reduced in the drying step.

In addition, the container may comprise a first container in which the protective agent is received and a second container disposed under the first container, wherein at least a portion of the first container is made of a porous material, By forming the space between the two containers as a vacuum chamber, the bubbles in the protective liquid can be sufficiently removed.

As a result, the coating of the membrane using the protective agent solution can be made very uniform, and thus the diagnostic reagent coated on the membrane can be sufficiently protected, and diagnostic reliability such as disease using body fluids or pregnancy can be secured Can be greatly improved.

FIG. 1 is a schematic view illustrating a membrane coating apparatus according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a schematic diagram for explaining the upper and lower absorbent paper supplying units shown in FIG. 1. FIG.
3 is a schematic sectional view for explaining the container shown in Fig.
Fig. 4 is a schematic sectional view for explaining another example of the first container shown in Fig. 3;
Figs. 5 and 6 are schematic cross-sectional views for explaining other examples of the container shown in Figs. 3 and 4. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention should not be construed as limited to the embodiments described below, but may be embodied in various other forms. The following examples are provided so that those skilled in the art can fully understand the scope of the present invention, rather than being provided so as to enable the present invention to be fully completed.

In the embodiments of the present invention, when one element is described as being placed on or connected to another element, the element may be disposed or connected directly to the other element, . Alternatively, if one element is described as being placed directly on another element or connected, there can be no other element between them. The terms first, second, third, etc. may be used to describe various items such as various elements, compositions, regions, layers and / or portions, but the items are not limited by these terms .

The terminology used in the embodiments of the present invention is used for the purpose of describing specific embodiments only, and is not intended to be limiting of the present invention. Furthermore, all terms including technical and scientific terms have the same meaning as will be understood by those skilled in the art having ordinary skill in the art, unless otherwise specified. These terms, such as those defined in conventional dictionaries, shall be construed to have meanings consistent with their meanings in the context of the related art and the description of the present invention, and are to be interpreted as being ideally or externally grossly intuitive It will not be interpreted.

Embodiments of the present invention are described with reference to schematic illustrations of ideal embodiments of the present invention. Thus, changes from the shapes of the illustrations, e.g., changes in manufacturing methods and / or tolerances, are those that can be reasonably expected. Accordingly, the embodiments of the present invention should not be construed as being limited to the specific shapes of the regions described in the drawings, but include deviations in the shapes, and the elements described in the drawings are entirely schematic and their shapes Is not intended to describe the exact shape of the elements and is not intended to limit the scope of the invention.

FIG. 1 is a schematic view illustrating a membrane coating apparatus according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 1, a membrane coating apparatus 100 according to an exemplary embodiment of the present invention uses a body fluid such as urine or blood to diagnose diseases such as hepatitis, diabetes, anemia, hyperlipemia, AIDS, Can be used to prepare diagnostic kits to be used.

The diagnostic kit may include a diagnostic strip coated with a diagnostic reagent for diagnosing the disease or pregnancy. Specifically, the diagnostic strip may be provided with a membrane pad coated with the diagnostic reagent. The membrane pad may be obtained by applying the diagnostic reagent to the strip-shaped membrane 10 and then cutting the membrane pad to a predetermined size.

In particular, the membrane coating apparatus 100 according to an embodiment of the present invention may coat the membrane 10 to protect the membrane 10 to which the diagnostic reagent is applied. As the coating liquid for coating the membrane 10, a protective chemical liquid 20 may be used.

The membrane coating apparatus 100 includes a container 102 for containing the protective chemical solution 20 and a membrane 10 for holding the strip membrane 10 in the protective chemical liquid 20 in the container 102. [ (Not shown). In particular, according to one embodiment of the present invention, the membrane coating apparatus 100 may include an absorbent paper (not shown) for supplying absorbent paper onto the membrane 10 to absorb and remove excess protective liquid 20 from the membrane 10, And a supply unit 300.

According to an embodiment of the present invention, the membrane transfer part 200 includes a membrane supply roller 210 on which a membrane supply roll 212 is mounted to supply the membrane 10, A membrane recovery roller 220 on which a membrane recovery roll 222 is mounted and a membrane guide roller 230 for providing a transport path of the membrane 10 so that the membrane 10 is immersed in the protective medicament 20, . ≪ / RTI >

The membrane guide roller 230 may be disposed in the container 102 so that the membrane 10 is immersed in the chemical agent solution 20 while the membrane 10 is being transported, The membrane 10 may be transported via the membrane guide roller 230.

Meanwhile, although not shown, the membrane supply roller 210 and the membrane recovery roller 220 may be rotated by a membrane roller driving unit (not shown). Particularly, the membrane roller driving unit may include motors connected to the membrane supply roller 210 and the membrane collection roller 220, and the membrane supply roller 210 and the membrane collection roller 220 may rotate at the same speed . A plurality of membrane feed rollers 212 may be mounted on the membrane feed roller 210 and a plurality of membrane feed rollers 222 may be mounted on the membrane feed roller 220. That is, the membrane coating apparatus 100 may simultaneously perform a protective chemical coating process on the plurality of membranes 10.

The membrane transferring unit 200 includes a second membrane guide roller 240 disposed between the membrane withdrawal roller 220 and the membrane guide roller 230 to change a transport path of the membrane 10, And a vertical driving unit (not shown) for moving the roller 230 in the vertical direction.

As an example, the transfer path of the membrane 10 is configured in a substantially alphabetical 'V' shape between the membrane feed roller 210 and the second membrane guide roller 240 by the membrane guide roller 230 And the second membrane guide roller 240 may be disposed adjacent to the container 102 and used to guide the membrane 10 through the container 102 in a horizontal direction.

The vertical driving unit moves the membrane guide roller 230 to the upper portion of the protective chemical solution 20 to replace the membrane supply roll 212 and the membrane recovery roll 222, The membrane guide roller 230 may be used to immerse the membrane guide roller 230 in the protective chemical solution 20. For example, the vertical driving unit may be configured using a pneumatic cylinder, but the configuration of the vertical driving unit may be variously changed, so that the scope of the present invention is not limited thereto.

The membrane coating apparatus 100 may include an oven 400 for drying the membrane 10. Although not shown in detail, the oven 400 may include a drying chamber through which the membrane 10 passes, and a blower (not shown) for drying the membrane 10 is connected to the drying chamber through a duct Can be connected. As another example, heaters may be disposed on the upper and lower portions of the membrane 10 transferred between the second membrane guide roller 240 and the membrane collection roller 220.

According to an embodiment of the present invention, the absorbent paper supplying part 300 includes an upper absorbent paper supplying part 310 for supplying an upper absorbent paper 312 on the upper surface of the membrane 10, And a lower absorbent paper supply unit 360 for supplying a lower absorbent paper 362 on the upper absorbent paper supply unit 360. As an example, a roll paper towel may be used as the upper absorbent paper 312 and the lower absorbent paper 362.

FIG. 2 is a schematic diagram for explaining the upper and lower absorbent paper supplying units shown in FIG. 1. FIG.

2, the upper absorbent paper supplying part 310 may be disposed above the conveying path of the membrane 10 and may include an upper absorbent paper supplying roll part 322 on which the upper absorbent paper supplying roll 322 is mounted to supply the upper absorbent paper 312, An absorbent paper supply roller 320 and an upper absorbent paper collection roller 330 on which an upper absorbent paper recovery roll 332 is mounted to recover the upper absorbent paper 312.

In particular, the upper absorbent paper feeder 310 includes an upper absorbent paper guide roller 340 that provides a transport path for the upper absorbent paper 312 such that the upper absorbent paper 312 contacts the upper surface of the membrane 10 .

According to an embodiment of the present invention, the upper absorbent sheet guide roller 340 may be disposed on the second membrane guide roller 240, and the membrane 10 and the upper absorbent sheet 312 may be disposed on the upper 2 membrane guide rollers 240 and the upper absorbent guide rollers 340. At this time, a predetermined absorption section 30 in which the upper absorbent paper 312 is placed on the membrane 10 can be set to the downstream side of the upper absorbent paper guide roller 340, and in the absorption section 30, The membrane 10 and the upper absorbent paper 312 may be transported at the same speed.

Although not shown, the membrane coating apparatus 100 may further include a top absorbent paper feed roller 320 and a top absorbent paper feed roller 320 such that the upper absorbent paper 312 is conveyed at the same absorption speed as the membrane 10, And an upper absorbent roller driving unit (not shown) that rotates the absorbent paper removing roller 330. The upper absorbent roller driving unit may include motors connected to the upper absorbent sheet feeding roller 320 and the upper absorbent sheet collecting roller 330, respectively.

Friction is generated between the membrane 10 and the upper absorbent paper 312 because the upper absorbent paper 312 is transported at the same speed as the upper absorbent paper 312 on the membrane 10 in the absorption section 30 as described above Whereby damage of the diagnostic reagent applied to the upper surface of the membrane 10 can be prevented.

The membrane coating apparatus 100 may further include a first sensor 350 disposed between the upper absorbent sheet supply roller 320 and the upper absorbent sheet guide roller 330 to measure a deflection amount of the upper absorbent sheet 312, And a second sensor 352 disposed between the upper absorbent sheet guide roller 340 and the upper absorbent sheet collecting roller 330 for measuring a deflection amount of the upper absorbent sheet 312. As an example, a proximity sensor may be used as the first and second sensors 350 and 352, and the interval between the first and second sensors 350 and 352 and the upper absorbent paper 312 The operation of the upper absorbent roller driving unit can be controlled so as not to deviate from the set range.

The upper absorbent paper supplying unit 310 includes second upper absorbent paper guide rollers (not shown) disposed on the upstream and downstream sides of the upper absorbent paper guide rollers 340 to provide a conveying path of the upper absorbent paper 340 The first and second sensors 350 and 352 may be suitably disposed between the upper absorbent guide roller 340 and the second upper absorbent guide rollers 342 have. 2, two second upper absorbent guide rollers 342 are disposed on the upstream side of the upper absorbent sheet guide roller 340 and one second upper absorbent sheet guide roller 342 is provided on the downstream side of the upper absorbent sheet guide roller 340. [ The number and arrangement of the second upper absorbent paper guide rollers 342 may be variously changed, so that the scope of the present invention is not limited thereto.

The lower absorbent paper supply part 360 may be disposed under the conveying path of the membrane 10 and may include a lower absorbent paper supply roller 370 to which the lower absorbent paper supply roll 372 is mounted to supply the lower absorbent paper 362, And a lower absorbent collection roller 380 on which a lower absorbent collection roll 382 is mounted to recover the lower absorbent paper 362.

According to an embodiment of the present invention, the lower absorbent paper supply part 360 includes a lower absorbent paper guide 362 for providing a transport path of the lower absorbent paper 362 such that the lower absorbent paper 362 contacts the lower surface of the membrane 10. [ A roller 390, and the like. The lower absorbent sheet guide roller 390 may be disposed between the second membrane guide roller 240 and the membrane withdrawal roller 220 and may be disposed between the lower absorbent sheet supply roller 370 and the lower absorbent sheet take- The rollers 380 may be disposed on both sides of the lower absorbent guide rollers 390 such that the lower absorbent paper 362 is conveyed in a direction opposite to the conveying direction of the membrane 10.

Although not shown, the membrane coating apparatus 100 may include a lower absorbent roller driving unit (not shown) for rotating the lower absorbent sheet supply roller 370 and the lower absorbent sheet removing roller 380, The driving unit may include motors connected to the lower absorbent paper supply roller 370 and the lower absorbent paper removing roller 380. Particularly, the lower absorbent article roller driving part may adjust the conveying speed of the lower absorbent paper 362 to be slower than the conveying speed of the membrane 10 to reduce the consumption amount of the lower absorbent paper 362.

The excess absorbent 20 can be sufficiently absorbed and removed from the membrane 10 by the upper absorbent paper 312 and the lower absorbent paper 362 as described above and therefore the membrane 10 using the subsequent oven 400 Can be significantly shortened and the coating of the membrane 10 can be made very uniform.

Meanwhile, bubbles may be generated in the protective chemical liquid 20 while the membrane 10 is being transported through the protective chemical liquid 20. For example, air bubbles may be generated due to vortex generated in the protective chemical liquid 20 by the transfer of the membrane 10 and temperature change of the protective chemical liquid 20, and the coating of the membrane 10 As shown in Fig.

According to an embodiment of the present invention, the membrane coating apparatus 100 may further include elements for removing bubbles in the protective chemical liquid 20. [

3 is a schematic sectional view for explaining the container shown in Fig.

3, the container 102 includes a first container 110 for receiving the chemical liquid 20 and a second container 120 disposed below the first container 110 . In particular, the second container 120 may be connected to the vacuum pump 130 to form a vacuum chamber 115 between the first container 110 and the second container 120, At least a portion of the container 110 may be made of a porous material for discharging the bubbles in the protective chemical liquid 20 through the vacuum chamber 115.

For example, the first container 110 may have a bottom opening as shown, and the bottom opening may be closed by a cover 112 made of the porous material. As an example, the cover 112 may be made of a porous ceramic.

The space between the first and second containers 110 and 120, that is, the inner space of the second container 120 closed by the first container 110, is connected to the vacuum chamber 130 The bubble in the protective chemical liquid 10 may be discharged through the porous cover 112 and the vacuum chamber 115. [

On the other hand, the porosity and pore size of the porous cover 112 and the pressure inside the vacuum chamber 115 are appropriately adjusted so that only the bubbles are passed through the porous cover 112 and the protective chemical solution 20 is not passed .

Fig. 4 is a schematic sectional view for explaining another example of the first container shown in Fig. 3;

Referring to FIG. 4, the first container 110 may include an inner container 110A and an outer container 110B. The inner container 110A may be made of a porous material as a whole and the outer container 110B may have openings 110C for supporting the inner container 110A and removing bubbles from the protective liquid 20 . That is, the bubbles in the protective chemical liquid 20 can be discharged through the inner container 110A, the openings 110C of the outer container 110B, and the vacuum chamber 115. [

Referring to FIG. 3, a dissolved oxygen sensor 140 for measuring the amount of dissolved oxygen in the chemical liquid 20 may be disposed in the first container 110 according to an embodiment of the present invention. The operation of the vacuum pump 130 can be appropriately controlled based on the dissolved oxygen amount measured by the dissolved oxygen sensor 140. The vacuum pump 130 may be connected to the second container 120 through a vacuum line 132 and a pressure control valve 134 and a vacuum gauge 136 may be installed in the vacuum line 132. have.

Figs. 5 and 6 are schematic cross-sectional views for explaining other examples of the container shown in Figs. 3 and 4. Fig.

Referring to FIGS. 5 and 6, the container 102 may further include a vacuum container 150 for removing air bubbles from the chemical liquid 20.

The vacuum container 150 may have a bottom open shape, and the open bottom may be arranged to be immersed in the protective chemical liquid 20. In particular, the vacuum container 150 may be disposed on the membrane guide roller 230.

Vacuum pressure for removing the bubbles may be provided inside the vacuum container 150. Although not shown in detail, the vacuum vessel 150 may be connected to a second vacuum pump (not shown) through a second vacuum line 152, so that the inner space of the vacuum vessel 150 is connected to a second vacuum And can function as a chamber 155. Alternatively, the second vacuum container 150 may be connected to the vacuum pump 130 through the second vacuum pipe 152 and the vacuum pipe 132. That is, the second vacuum pipe 152 may be connected to the vacuum pipe 132.

As a result, the bubbles inside the protective chemical solution 20 are more efficiently discharged through the vacuum chamber 115 below the first container 110 and the second vacuum chamber 155 above the first container 110 .

The vacuum container 150 may be vertically movable together with the membrane guide roller 230 by the vertical driving unit to replace the membrane supply roll 212 and the membrane recovery roll 222. [ have.

According to the embodiments of the present invention as described above, the membrane coating apparatus 100 absorbs and removes extra protection liquid 20 from the membrane 10 passing through the protection liquid 20 contained in the vessel 102 And an absorbent paper supply unit 300 for supplying the absorbent paper. The absorbent paper supplying part 300 can supply the upper absorbent paper 312 and the lower absorbent paper 362 on the upper and lower surfaces of the membrane 10 so that the time required for the subsequent drying of the membrane 10 Can be greatly shortened.

In addition, since the size of the oven 400 for drying the membrane 10 can be reduced, the manufacturing cost and size of the membrane coating apparatus 100 can be reduced. In particular, since the excess protective liquid can be sufficiently removed from the membrane 10, surface defects such as stains can be sufficiently reduced in the drying step.

Additionally, the container 102 may include a first container 110 in which the protective fluid 20 is received and a second container 120 disposed below the first container 110, At least a part of the protective fluid 110 may be made of a porous material and the space between the first and second containers 110 and 120 may be formed as a vacuum chamber 115 to sufficiently remove the air bubbles in the protective fluid 20 .

As a result, the coating of the membrane 10 using the protective chemical solution 20 can be made very uniform, so that the diagnostic reagent applied on the membrane 10 can be sufficiently protected, Diagnosis reliability such as disease or pregnancy can be greatly improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

10: Membrane 20: Protection liquid
100: membrane coating apparatus 102: container
110: first vessel 115: vacuum chamber
120: Second container 130: Vacuum pump
140: Dissolved oxygen sensor 150: Vacuum container
200: membrane feed part 210: membrane feed roller
220: Membrane collection roller 230: Membrane guide roller
240: second membrane guide roller 300: absorbent paper supply part
310: upper absorbent paper supply part 312: upper absorbent paper
320: upper absorbent paper supply roller 330: upper absorbent paper recovery roller
340: upper absorbent paper guide roller 350, 352: sensor
360: lower absorbent paper supply part 362: lower absorbent paper
370: lower absorbent paper supply roller 380: lower absorbent paper collection roller
390: lower absorbent paper guide roller 400: oven

Claims (18)

1. A membrane coating apparatus for coating a membrane with a protective agent to protect a diagnostic reagent applied to a top surface of the membrane having a strip shape,
A container for containing the protective chemical liquid;
A membrane transferring unit for transferring the membrane so that the membrane is immersed in the protective agent solution in the vessel; And
And an absorbent paper feeder for feeding absorbent paper onto the membrane to absorb and remove excess protective fluid from the membrane,
The absorbent-
Supplying an upper absorbent paper in the form of a strip on the upper surface of the membrane such that the upper absorbent paper is continuously supplied with the upper absorbent paper so that the upper absorbent paper is moved at the same speed as the membrane while being placed on the membrane in a predetermined absorption section, Absorbent paper supply unit; And
The lower absorbent paper is supplied on the lower surface of the membrane in a state in which the lower absorbent paper is in contact with the lower surface of the membrane so that the lower absorbent paper is moved in a direction opposite to the moving direction of the membrane. And a lower absorbent paper supply unit for continuously supplying the lower absorbent paper. [2] The membrane module of claim 1,
A membrane feed roller on which a membrane feed roll is mounted to feed the membrane;
A membrane collection roller on which a membrane recovery roll is mounted to collect the membrane; And
And a membrane guide roller for providing a transport path of the membrane so that the membrane is immersed in the protective agent solution. 3. The apparatus of claim 2, wherein the membrane-
Further comprising a second membrane guide roller disposed between the membrane collection roller and the membrane guide roller for guiding the membrane in a horizontal direction. 3. The apparatus of claim 2, wherein the membrane-
And a vertical driving unit for moving the membrane guide roller in a vertical direction. delete The absorbent article as set forth in claim 1,
An upper absorbent paper supply roller on which an upper absorbent paper supply roll is mounted to supply the upper absorbent paper; And
And an upper absorbent paper recovery roller on which an upper absorbent paper recovery roll is mounted to recover the upper absorbent paper. 7. The absorbent article as set forth in claim 6,
Further comprising an upper absorbent guide roller to provide a transport path for the upper absorbent so that the upper absorbent is placed on the upper surface of the membrane. The membrane coating apparatus according to claim 7, further comprising a first sensor disposed between the upper absorbent sheet supplying roller and the upper absorbent sheet guide roller and measuring a deflection amount of the upper absorbent sheet. The membrane coating apparatus according to claim 7, further comprising a second sensor disposed between the upper absorbent sheet guide roller and the upper absorbent sheet removing roller and measuring a deflection amount of the upper absorbent sheet. delete The absorbent article as set forth in claim 1,
A lower absorbent paper supply roller to which the lower absorbent paper supply roll is mounted to supply the lower absorbent paper; And
And a lower absorber recovery roller on which a lower absorber recovery roll is mounted to recover the lower absorber. 12. The absorbent article as set forth in claim 11,
Further comprising a lower absorbent sheet guide roller for providing a conveying path of the lower absorbent sheet such that the lower absorbent sheet contacts the lower surface of the membrane. delete The container according to claim 1,
A first container for receiving the protective chemical liquid; And
And a second container disposed below the first container,
The second container is connected to a vacuum pump to form a space between the first container and the second container into a vacuum chamber,
Wherein at least a part of the first container is made of a porous material for discharging bubbles in the protective chemical liquid through the vacuum chamber. The vacuum cleaner according to claim 14, further comprising a vacuum container having a bottom open shape and arranged such that the open bottom is immersed in the protective chemical liquid, wherein vacuum pressure is applied to the inside of the vacuum container to remove the bubbles Wherein the membrane coating device is a membrane coating device. 16. The membrane coating apparatus of claim 15, wherein the vacuum container is connected to the vacuum pump or a separate second vacuum pump to form an internal space of the vacuum container as a second vacuum chamber. The membrane coating apparatus according to claim 1, further comprising an oven for drying the membrane from which the excess protective agent solution has been removed. delete

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